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This book focuses on development of a new family of control and management strategies for the integration of micro-grids and voltage source converters in smart grids by introducing new concepts of Synchronous Converters and Synchronous-VSC to overcome stability and operational aspects of converter-dominated micro-grids such as interactions between electronically-interfaced generation and load units with electrical-machine-based units, low inertia, frequent transition between grid-connected and islanding modes and smooth grid auto-synchronization. The synchronous converters offer many…mehr

Produktbeschreibung
This book focuses on development of a new family of control and management strategies for the integration of micro-grids and voltage source converters in smart grids by introducing new concepts of Synchronous Converters and Synchronous-VSC to overcome stability and operational aspects of converter-dominated micro-grids such as interactions between electronically-interfaced generation and load units with electrical-machine-based units, low inertia, frequent transition between grid-connected and islanding modes and smooth grid auto-synchronization. The synchronous converters offer many advantages over their older counterparts like vector control and droop control as they are universal integrated controller-power manager-synchronization units realizing the requirements of both grid-connected and islanded modes without reconfiguration action, behave like a PLL and have grid auto-synchronization capability and mimic characteristics of real synchronous generators introducing virtual inertia. Moreover, bidirectional synchronous-VSC is applicable to dc, ac and hybrid dc/ac grids enabling simultaneous and hybrid support and control of frequency and voltage of ac side and dc-link voltage.
Autorenporträt
Mahdi Ashabani holds a Ph.D. (2014) in power engineering and power electronics from the University of Alberta, Edmonton,Canada. He developed a new set of control strategies such as synchronous converters, bidirectional synchronous-VSC and induction converters and nonlinear microgrid stabilizer establishing the foundations of control of smart grids.